JP2740511B2 - Breathing apparatus for patients - Google Patents

Abstract

Respirating apparatus comprising a pump (1,2,3) , by means of which respiratory gas may be circulated in a closed line system (4) in which the pressure may be varied in accordance with a certain respirating pattern, said line system (4) being provided with connecting means (8) for a patient and for supplying the various components of the respiratory gas (10,11,12) and with means (9) for withdrawing the carbon dioxyde exhaled by the patient into the line system (4), said pump including at least one pump chamber (1,2,3), which is separated by a pump membrane (5) into a primary and a secondary portion, in which the secondary portion forms part of or is connected to the line system (4) and the primary portion is connected to a supply of a driving fluid (17), of which the varying pressure may effect the pumping action of the membrane (5).

Description

Description: TECHNICAL FIELD The present invention relates to a breathing apparatus for a patient, particularly for performing anesthesia.

(Prior art) Such a breathing apparatus has a pump. Breathing gas (resp
The iratory gas is circulated by the pump in a closed line system, and the pressure in the line system varies according to a certain breathing pattern. The line system also has a connection to the patient, a connection to supply the various components that make up the respiratory gas, and a device to collect the carbon dioxide released into the line system by the patient.

Respirators as described above are well known. Known respirators have a pump, the downstream side of which is connected to a volume displacement meter formed as a single cylinder. Inside the cylinder, a clock shaped piston moves back and forth over an intermediately mounted roller membrane. Such known structures have the disadvantage of being complex and do not provide very accurate pumping and pressure control in the line system.

OBJECTS OF THE INVENTION It is an object of the present invention to overcome the disadvantages of known respirators as described above.

SUMMARY OF THE INVENTION A feature of the breathing apparatus according to the invention is that the pump has at least one pump chamber, which is separated into a main pump chamber part and an auxiliary pump chamber part by a pump membrane. . The auxiliary pump chamber part forms part of, or is connected to, the line system, and the main pump chamber part is connected to a drive fluid supply. The change in pressure of the driving fluid causes the pumping of the membrane.

Unlike conventional devices, in the breathing apparatus according to the invention, the pump acts as a volume displacement meter.

The driving fluid may be of a different form, for example, compressed air as a preferred form.

A second feature of the breathing apparatus according to the invention is that the pump has several pump chambers connected in parallel. In this embodiment of the breathing apparatus according to the invention, a valve is provided in the supply and / or discharge device of the main pump chamber section and of each auxiliary pump chamber section, by means of which one or more pump chambers are closed. It can be activated or deactivated.

Use more pump chambers connected in parallel and operate or deactivate these pump chambers individually to more precisely control and regulate patient breathing Becomes possible.

In one embodiment of the breathing apparatus according to the invention, a measuring device for measuring the displacement of the membrane and the volume change of the auxiliary pump chamber connected thereto is provided.

Such measuring devices can be differently shaped.

In one embodiment of the breathing apparatus according to the present invention, the measuring device detects electric displacement or electric induction in conjunction with movement of the membrane, for example, in order to detect displacement of the membrane or volume change of the auxiliary pump chamber. A known device that operates by detection may be used.

In operation, changes in the pressure of the drive fluid in the main pump chamber cause the membrane to reciprocate, resulting in a certain pumping action.

Another feature of the breathing apparatus according to the invention is that the movement of the membrane towards the auxiliary pump chamber is limited to a certain end position by a stop provided in the main pump chamber.

In one embodiment of the breathing apparatus according to the invention, the membrane of the pump chamber moves to a terminal position against the action of the spring. In another form of this embodiment of the breathing apparatus according to the invention, the magnitude of the spring force against which the membranes of the series of pump chambers connected in parallel move to the end position is gradually increased. Therefore, when the pressure of the driving fluid is increased, the membrane against the spring having the smallest spring force completely moves from the initial position to the end position, and then the next membrane moves to the initial position. It is moved by the driving fluid from the position to the end position, and so on.

In this embodiment of the breathing apparatus according to the invention, the pump discharge can be controlled simply, efficiently and accurately by controlling the pressure of the drive fluid on the main pump chamber side of the membrane.

In another embodiment of the breathing apparatus according to the present invention, the line system comprises a non-positive displacement pump (such as a centrifugal pump).
It has an n-positive-displacement pump, by which the breathing gas is circulated through a conduit or line system.

By using such a special circulating pump in the line system, the same can be done completely without the use of check valves. Because of this special pump, the sensitivity to respiratory equipment failure was significantly reduced.

In addition, by using a special circulation pump, the liquid anesthetic can be directly supplied into the line system and vaporized into a gas flow.

(Embodiment) An embodiment of a breathing apparatus for a patient according to the present invention will be described below with reference to the accompanying drawings.

As can be seen, the breathing apparatus is a membrane pump (membran) with three pump chambers 1,2,3 connected in parallel.
e pump). Respiratory gas closed line system 4
The membrane is pumped alternately by the membrane pump according to a certain breathing pattern.

Each of the pump chambers 1, 2, 3 is divided by a membrane 5 into a main pump chamber part and an auxiliary pump chamber part. The main pump chamber section is connected to the supply / discharge device 6, and uses compressed air as a driving fluid. In addition, the auxiliary pump chamber is connected to the closed line system 4.

The line system 4 further comprises a connection device 8 with the patient,
A suction device 9 for collecting the carbon dioxide exhaled into the line system by the patient and coupling devices 10, 11, 12 for introducing laughter (NO) and oxygen to the line system 4.
And a vaporizer provided with a liquid anesthetic supply device 7.

The auxiliary pump chambers of the pump chambers 1, 2, 3 are connected to the line system 4 via a valve 13. On the other hand, the main pump chamber parts of the pump chambers 1, 2, and 3
The compressed air supply / discharge device 6 is connected via a valve 14.

The line system further has a circulation pump 15 for circulating and mixing the components of the respiratory gas in the line system 4.

The compressed air supply / discharge line 6 is connected to a compressed air supply device 17 via an electromagnetically drivable valve 16 and a control valve (not shown). The supply / discharge device 6 is connected to a discharge line or discharge line 19 for compressed air via a valve 18 that can be driven electromagnetically.

A measuring device (not shown) is provided in the auxiliary pump chambers of the pump chambers 1, 2, and 3, and the displacement of the membrane is measured by the measuring device and sent to a central control / adjustment device (computer) 20. Can be

In operation, the concentrations of components of the respiratory gas, such as oxygen, laughter, carbon dioxide, etc., are constantly measured and sent to the central control / regulator 20 by methods known per se. The central control / adjustment device 20 adjusts the supply of laughter, oxygen, etc. in the line system based on the received information,
Further, the valves 16 and 18 and the valves 13 and 14 are controlled to cause the patient to breathe based on a certain pattern.

[Brief description of the drawings]

The drawings show an embodiment of the present invention, and FIG. 1 is a schematic view of a breathing apparatus for a patient. 1,2,3 ... Pump chamber 4 ... Line system 5 ... Membrane 8 ... Connecting device 9 ... Suction device 10,11,12 ... Connecting device 13,14 ... Valve 15 ... Circulation pump

Continuation of the front page (56) References JP-A-59-207162 (JP, A) JP-A-61-13972 (JP, A) JP-A-57-136460 (JP, A) JP-A-52-103897 (JP, A) , A) JP-A-60-259781 (JP, A) JP-A-60-106461 (JP, A)

Claims (5)

(57) [Claims] A closed line system (4) having a first pump (15) for circulating breathing gas into said line system (4) and said line system (4). 4) a second pump (1, 2, 3) is provided which alternately pressurizes and depressurizes said respiratory gas present therein according to a respiratory pattern to the patient, and said line system (4) comprises Means (8) for connecting the line system to the patient and means (10,11,12) for supplying various components of the respiratory gas to the line system (4) and further the patient has discharged into the line system (4) A respirator for a patient, particularly for anesthesia, having means (9) for recovering carbon dioxide, wherein said second pump is connected in parallel with a plurality of simultaneously operating pump chambers (1,2,2). 3) Each of the pump chambers has a flexible membrane that traverses the chamber and divides the chamber into a main pump chamber section and an auxiliary pump chamber section, and each of the pump chambers has an auxiliary pump chamber section with the line system ( 4), wherein the main pump chamber portion of each of the pump chambers is connected to a variable supply of compressed air (17) to effect pumping by the membrane, and a plurality of valves (13, 14) are provided. Adjustable arrangement between a source of compressed air (17) and the main pump chamber part of the pump chamber and between an auxiliary pump chamber part of the pump chamber and the line system (4), by means of these valves Activating or deactivating one or more pump chambers of the second pump (1,2,3) connected in parallel Thus breathing apparatus for a patient to adjust the pressure of the breathing gas circulating in the line system. 2. The apparatus according to claim 1, further comprising means for determining an amount of movement of the membrane, and for determining a change in volume due to the movement of the membrane in the auxiliary pump chamber of each of the pump chambers. Breathing apparatus for patients. 3. The method of claim 1 wherein movement of said membrane of each of said pump chambers toward said auxiliary pump chamber portion is limited by an end position determined by a stop member in said main pump chamber portion of said pump chamber. 1
The respiratory apparatus for a patient according to the item. 4. The respiratory apparatus for a patient according to claim 1, wherein the initial position of the membrane is defined by a stop member in the main pump chamber portion of each of the pump chambers. 5. The respiratory apparatus according to claim 1, further comprising means (7) for directly introducing and vaporizing a liquid anesthetic into said line system (4).